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CHIP/Stub1通过促进卵巢癌中PKM2的降解来调节瓦伯格效应。

CHIP/Stub1 regulates the Warburg effect by promoting degradation of PKM2 in ovarian carcinoma.

作者信息

Shang Y, He J, Wang Y, Feng Q, Zhang Y, Guo J, Li J, Li S, Wang Y, Yan G, Ren F, Shi Y, Xu J, Zeps N, Zhai Y, He D, Chang Z

机构信息

The Key Laboratory for Cell Proliferation and Regulation Biology of Ministry of Education, Department of Cell Biology, College of Life Sciences, Beijing Normal University, Beijing, China.

State Key Laboratory of Membrane Biology, Department of Basic Medical Sciences, School of Medicine, Tsinghua University, Beijing, China.

出版信息

Oncogene. 2017 Jul 20;36(29):4191-4200. doi: 10.1038/onc.2017.31. Epub 2017 Mar 27.

DOI:10.1038/onc.2017.31

PMID:28346425

Abstract

Tumor cells preferentially adopt aerobic glycolysis for their energy supply, a phenomenon known as the Warburg effect. It remains a matter of debate as to how the Warburg effect is regulated during tumor progression. Here, we show that CHIP (carboxyl terminus of Hsc70-interacting protein), a U-box E3 ligase, suppresses tumor progression in ovarian carcinomas by inhibiting aerobic glycolysis. While CHIP is downregulated in ovarian carcinoma, induced expression of CHIP results in significant inhibition of the tumor growth examined by in vitro and in vivo experiments. Reciprocally, depletion of CHIP leads to promotion of tumor growth. By a SiLAD proteomics analysis, we identified pyruvate kinase isoenzyme M2 (PKM2), a critical regulator of glycolysis in tumors, as a target that CHIP mediated for degradation. Accordingly, we show that CHIP regulates PKM2 protein stability and thereafter the energy metabolic processes. Depletion or knockout of CHIP increased the glycolytic products in both tumor and mouse embryonic fibroblast cells. Simultaneously, we observed that CHIP expression inversely correlated with PKM2 levels in human ovarian carcinomas. This study reveals a mechanism that the Warburg effect is regulated by CHIP through its function as an E3 ligase, which mediates the degradation of PKM2 during tumor progression. Our findings shed new light into understanding of ovarian carcinomas and may provide a new therapeutic strategy for ovarian cancer.

摘要

肿瘤细胞优先采用有氧糖酵解来供应能量，这一现象被称为瓦伯格效应。关于在肿瘤进展过程中瓦伯格效应是如何被调控的，仍然存在争议。在此，我们表明，CHIP（Hsc70相互作用蛋白的羧基末端），一种U-box E3连接酶，通过抑制有氧糖酵解来抑制卵巢癌的肿瘤进展。虽然CHIP在卵巢癌中表达下调，但通过体外和体内实验检测发现，诱导CHIP表达会显著抑制肿瘤生长。相反，敲低CHIP会导致肿瘤生长促进。通过SiLAD蛋白质组学分析，我们鉴定出丙酮酸激酶同工酶M2（PKM2），肿瘤糖酵解的关键调节因子，作为CHIP介导降解的靶点。因此，我们表明CHIP调节PKM2蛋白稳定性，进而调节能量代谢过程。敲低或敲除CHIP会增加肿瘤细胞和小鼠胚胎成纤维细胞中的糖酵解产物。同时，我们观察到在人类卵巢癌中CHIP表达与PKM2水平呈负相关。这项研究揭示了一种机制，即瓦伯格效应在肿瘤进展过程中通过CHIP作为E3连接酶的功能来调节，该功能介导PKM2的降解。我们的发现为理解卵巢癌提供了新的线索，并可能为卵巢癌提供一种新的治疗策略。

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CHIP/Stub1通过促进卵巢癌中PKM2的降解来调节瓦伯格效应。

CHIP/Stub1 regulates the Warburg effect by promoting degradation of PKM2 in ovarian carcinoma.

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